View clinical trials related to Respiratory Insufficiency.
Filter by:The goal of this clinical trial is to evaluate the effectiveness of photobiomodulation therapy combined with static magnetic field (PBMT-sMF) in adult patients who require mechanical ventilation. The main questions it aims to answer are: (i) Does PBMT-sMF lower the length of stay in the intensive care unit (ICU) for mechanically ventilated patients? (ii) Does PBMT-sMF increase the diaphragm thickness in mechanically ventilated patients in the ICU? Researches will compare active PBMT-sMF plus standard of care to a placebo PBMT-sMF plus standard of care to see if active PBMT-sMF works to prevent or retard disuse atrophy of the diaphragm during mechanical ventilation.
Point-of-care ultrasound (POCUS) is the use of ultrasound by the bedside provider in real time to answer a specific question and guide medical management. POCUS can be used to diagnose the severity of neonatal respiratory distress syndrome (RDS) through a lung ultrasound score. Lung ultrasound scores have also been shown to predict if an infant is treated with an initial dose of surfactant. Therefore, using lung ultrasound scores to guide surfactant therapy for RDS will likely lead to earlier surfactant therapy and may improve short-term respiratory outcomes. This study will test this theory by comparing lung ultrasound score-guided surfactant therapy for premature infants with RDS with our current surfactant administration guidelines.
Preterm and term intubuted infants in the NICU will undergo two sequential suctioning procedures: a new, FDA-approved suction device called EXSALTA (ED) and the standard conventional wall (SCW). The physiological consequences, i.e. changes in heart rate (HR), oxygen saturation (SpO2), cerebral oxygenation (C-rSO2), and cerebral fractional oxygen extraction (C-FOE) between ED and SCW ETT tracheal suctioning system in both open and closed catheter system settings will be evaluated using a randomized cross over design in preterm and term infants receiving mechanical ventilation via an ETT. This study will evaluate the hypothesis that there will be significantly lower variations in HR, SpO2, C-rSO2, and C-FOE during ETT suctioning with ED compared to SCW suctioning systems under both open and close ETT suction settings.
In the United States, the current standard of prehospital (i.e. outside of hospitals) emergency care for children with life-threatening illnesses in the community includes remote physician support for paramedics providing life-saving therapy while transporting the child to the hospital. Most prehospital emergency medical services (EMS) agencies use radio-based (audio only) communication between paramedics and physicians to augment this care. However, this communication strategy is inherently limited as the remote physician cannot visualize the patient for accurate assessment and to direct treatment. The purpose of this pilot randomized controlled trial (RCT) is to evaluate whether use of a 2-way audiovisual connection with a pediatric emergency medicine expert (intervention = "telemedical support") will improve the quality of care provided by paramedics to infant simulator mannequins with life threatening illness (respiratory failure). Paramedics receiving real-time telemedical support by a pediatric expert may provide better care due to decreased cognitive burden, critical action checking, protocol verification, and error correction. Because real pediatric life-threatening illnesses are rare, high stakes events and involve a vulnerable population (children), this RCT will test the effect of the intervention on paramedic performance in simulated cases of pediatric medical emergencies. The two specific aims for this research are: - Aim 1: To test the intervention efficacy by determining if there is a measurable difference in the frequency of serious safety events between study groups - Aim 2: To compare two safety event detection methods, medical record review, and video review
The hypothesis that is being tested is that the supplementation of L-arginine plus Vitamin C to multidisciplinary pulmonary rehabilitation (PR) in patients with a previous diagnosis of chronic obstructive pulmonary disease (COPD) and chronic respiratory failure can have a favorable influence on fatigue and on clinical indicators related to endothelial function, potentially mitigating the cardiovascular (CV) disease burden in this clinical context.
The passage of air through the nasal cavity generates rhythmic oscillations transmitted by the olfactory bulb to the brain, which induces cerebral activation in functional areas and is associated with better cognitive performance compared to oral breathing. Consequently, the abolition of nasal ventilation in patients intubated via the orotracheal route could have deleterious effects on brain activity. Besides the loss of olfaction, the abolition of nasal ventilation could affect brain activity and respiratory control, consequently altering regional pulmonary ventilation. The hypothesis of the study is that nasal ventilation through the passage of humidified nasal airflow in patients intubated via the orotracheal route would be associated with modulation of cerebral electrical activity and tissue oxygenation and a modification of regional pulmonary ventilation.
The goal of this physiological intervention study is to unravel the (patho)physiological mechanisms and potential clinical benefits of a pre-specified early switch from controlled to assisted ventilation in mechanically ventilated adult patients with acute hypoxemic respiratory failure (PaO2/FiO2 ratio < 200 mmHg). The intervention is that participants will be switched from controlled to assisted ventilation when PaO2/FiO2 ratio > 200 mmHg. The primary endpoint is the change in regional lung stress (as derived by electrical impedance tomography) when switching from controlled to assisted ventilation and until a successful or failed switch.
This study is a prospective physiologic study. The primary study population will be adult invasive tracheal intubated patients with COPD, and investigators will collect relevant demographic data, vital signs, and baseline physiologic parameters of the patients prior to the spontaneous breathing test(SBT). The participants will be divided into a successful withdrawal group and a failed withdrawal group according to the SBT outcome, and the changes in the above parameters during SBT will be compared between the two groups .
The goal of this clinical trial is to compare naloxone to nalmefene for the treatment of opioid overdose in adults. The main questions it aims to answer are: - Does nalmefene lower the number of doses of medicine participants need to treat opioid overdose? - When participants are given nalmefene instead of naloxone, do they have fewer complications of opioid overdose such as being admitted to the hospital or having a breathing tube inserted? Researchers will compare nalmefene to naloxone for the treatment of opioid overdose. Nalmefene and naloxone are both approved medicines to treat opioid overdose. Participants who are brought to the emergency department after an opioid overdose will be given a dose of either nalmefene or naloxone if their breathing slows down again after an opioid overdose. Participants will: - Stay in the emergency department for 8 hours after receiving a dose of nalmefene or naloxone. - Receive a phone call 7 days after their emergency department to check on how they are doing. Background information: Naloxone (also known as Narcan) and nalmefene are opioid blocking medicines. When someone overdoses on an opioid, such as heroin or fentanyl, their breathing slows down or stops and they can die. By giving naloxone or nalmefene, the effect of the opioid can be blocked and the person can start breathing again. Naloxone is the most commonly used medicine to reverse an opioid overdose. The effect of naloxone lasts about an hour, and patients may need more than one dose of naloxone to keep them breathing. Sometimes patients overdose, get a dose of naloxone and wake up, and then some time later their breathing slows down again and they need another dose of naloxone. This can happen because the effect of the opioid they took lasts longer than the effect of the naloxone. The effect of nalmefene lasts longer than naloxone, about four hours. If a person gets nalmefene, their opioid may wear off before the nalmefene wears off and they might not need any more doses of a reversal medicine. Both naloxone and nalmefene are approved medicines for treating opioid overdose. Often, when a person overdoses on an opioid, someone gives them naloxone right away and then they are brought to the emergency department. In the emergency department, they are watched for several hours to make sure they don't stop breathing again when their naloxone wears off. If they do stop breathing again, they are given another dose of naloxone. In this study, participants will be given either nalmefene or naloxone if their breathing slows down while they are in the emergency department.
The purpose of this observational study is to understand how adults who survive acute respiratory failure (ARF) and the people (usually family) who support ARF survivors after returning home think about the first 6 months of recovery. The study aims to find out if expectations about the recovery process after ARF are associated with mental health symptoms in both survivors and the survivor's care partners. Study participants will complete 3 surveys over 6 months. These surveys ask questions about participants' future expectations, feelings, and mood. Surveys can be completed online, over the phone, or on paper.